Preventing reverse creep in a motor vehicle

ABSTRACT

An apparatus and a process for the prevention of the rollback of a vehicle with a vehicle braking system ( 18 ), wherein a braking system ( 18 ) comprises a vehicle brake pressure modifying apparatus ( 20 ); a device ( 28, 34, 36 ) which are enabled to recognize a forward movement of the vehicle, and a brake control apparatus ( 16 ), which is connected to the vehicle brake pressure modifying apparatus ( 20 ) and the device ( 28 ). There is generated in the control apparatus ( 16 ) a signal which, upon a standstill of the vehicle, activates a brake and sensor combination ( 8, 28 ) which acts upon a transmission ( 2 ) of the vehicle, the brake and the sensor combination ( 8, 28 ) being supplementary to the brakes of the vehicle brake system ( 18 ) and, upon a recognition of a forward motion of the vehicle, the braking fluid pressure in the vehicle brake pressure modifying apparatus ( 20 ) is reduced and thus the brake and the sensor combination ( 8, 28 ) acting upon the transmission is released.

[0001] The invention concerns both an apparatus and a process to avoid the backroll of a standing vehicle, in accord with the principal concept set forth in claim 1.

[0002] Where an application involves a transmission with automatic gear shifting, especially in commercial vehicles, a backroll blocking agent, otherwise known as a “hill-holder”, is desired to provide security against reverse movement during a temporary stop. This desire arises especially from the fact that automatic transmissions are being increasingly used in those fields in which torque converter transmissions were previously employed. Because of the inherent characteristics of torque converters, however, these possess a tendency for forward creep, which hinders or at least minimizes backrolling.

[0003] Release devices for automatic transmissions have been made known, wherein an electronically controlled vehicle brake can be installed to function as a backroll blocker. Functional logic programming adds to the release of an energized vehicle brake; a signal of increasing torque of the frictional clutch binding the motor to the transmission. By a coincidence of a declining braking moment at the vehicle brakes and a simultaneous increase of traction-torque of the vehicle clutch, the function of backroll blocking is created.

[0004] EP 280 818 discloses a braking system governing an apparatus, which recognizes the position of the vehicle and, following the establishment of a predetermined torque, which torque is transmitted from the motor to the vehicle wheels, a valve in the brake system opens, thus reducing the brake pressure, allowing the vehicle to again start forward.

[0005] In the manner of an example, DE 198 26 068 teaches of a transmission brake, which can be placed in a vehicle transmission, wherein it serves to assist in the synchronization of the located gear drive therein. Since the inertia of the transmission, this is carried out upon the synchronization of rotating parts, which rotates at varying speeds, can be braked through a shifting procedure through a transmission braking system with the result that the shifting procedure is accelerated. The transmission brake system is normally designed in lamellate fashion and is controlled by a pressure medium, usually oil, by means of a piston.

[0006] The purpose of the present invention is to provide the functionality of the backroll brake. At the same time, the purpose is to provide assurance that, even in the case of disturbances or failure of operation of the vehicle braking system, no critical condition can arise.

[0007] This purpose is achieved by an apparatus and a process having the features of the claims 1 and 7 for the repression of the back roll of a vehicle. The features of the embodiments of the invention are objects of the subordinate claims.

[0008] An apparatus for the prevention of backroll of a vehicle is proposed, employing the use the of the brakes of a vehicle braking system, which includes in mutual operational combination a vehicle braking pressure biasing device, (hereinafter “brake modifier”); an apparatus which recognizes a forward motion of the vehicle and a control device which is in connection with the brake modifier and the apparatus. A brake is provided acting on a gear train of the transmission of the motor vehicle. This brake is governed by a control system and, during a period of standstill or a nearly still-stand condition of the vehicle, the brake can be activated by the control system to act in addition to the vehicle braking system. Further, a process for the prevention of backrolling of a vehicle is proposed with a vehicle braking system, which includes the brake modifier in the combination described and functioning as above. With this equipment, a signal is produced in the control system. Upon a standstill of the vehicle or upon a condition nearly at a standstill, this signal activates a coacting brake on the transmission of the motor vehicle. This coacting brake is separate from and, in addition to, the vehicle braking system. Upon a recognition of a forward movement of the vehicle, the control apparatus reduces the pressure of the braking fluid in the brake modifier and releases the brake which acts upon the transmission. In an advantageous rendition, the brake modifier is an adjustable holding valve regulating brake power. In one embodiment, the apparatus, which is designed to detect forward motion of the vehicle; a clutch directional sensor is installed whereby the control system detects an overstepping of a predetermined clutch adjustment path. In another embodiment designed to recognize the forward movement of a vehicle, the apparatus is a sensor for the transmitted torque from the clutch. In this way, the overstepping of a preset clutch moment is recognized. Advantageous embodiments include a speed of rotation sensor being placed in the input drive string which can pickup a direction of rotation. By this means, from an existing speed of rotation in a specific direction of rotation, the control decision can be made relative to the forward movement of the vehicle. Another of these embodiments allows the speed of rotation sensor to be placed on the output drive shaft of the transmission. In yet another embodiment example, the ABS-sensor (ABS=Anti-Blocking System) is used on a vehicle wheel, in order that recognition will be provided as to the direction of travel from the current RPM and the direction of wheel rotation. One embodiment shows that brake, which acts upon the transmission, to be a lamellar brake, which is located on an auxiliary shaft in a shifting gear train of the transmission of the vehicle. In yet another version, the brake, which acts upon the transmission, is again a lamellar brake, but which is placed on the input shaft of the shifting gear train of the transmission of the vehicle. A lamellar brake placed in a differential in the input drive string can be used in like manner. Similarly, in another embodiment, even a transmission oil pump can be made to act as a brake, which is then adjusted by means of zero delivery and blocked. By means of cutting the through-flow, a sufficient braking moment can be achieved. Likewise, the function of a brake can also be achieved by inciting stress in the transmission. The stress is brought about in automatic shifting when two separate gear stages of a transmission shift simultaneously and thereby the shifting transmission is blocked.

[0009] The transmission brake, which normally functions as an element for the support of synchronization, as the brake restricts the rotating mass in the transmission in such a manner, that equal speeds of rotation are achieved for those elements which are locked together for torque transmission, is further put to use without change and serves as a functional element for the prevention of rollback. In the case of an activated backroll blockage of the vehicle braking system when the standstill state of the vehicle is detected by appropriate ABS-sensors of the vehicle, then the brake can be additionally applied in the gear train of the vehicle. Advantageously, this gear train is the vehicle shifting transmission itself. Thereby, in a failure fault of vehicle brakes or faulty operation on the part of the vehicle driver, the danger of a backroll of the vehicle is avoided.

[0010] By means of the invented equipment, a redundancy is attained upon the failure of the normally provided system for the fulfilling of a rollback prevention function. An extended level of safety for the entire system is achieved. The equipment can be used, not only with the electronically controlled brakes, but also with normal pneumatically or hydraulically activated brakes operated by means of pedal pressure from the driver.

[0011] With the aid of a drawing, 1 of 1, the invention is presented in greater detail as presented below:

[0012] The FIG. 1/1, shows schematically a shiftable vehicle transmission 2 with a transmission housing 4 and an output drive shaft 6. In the transmission housing 4 is located a brake 8, which acts upon rotating masses within the transmission 2. The activation of the brake 8 is executed by a transmission control 10 which, by means of a line 12, stands in communication with the brake 8. The transmission control 10 is connected through a line 14 with an electronic brake control 16 of a vehicle braking system 18. An apparatus (i.e., a brake modifier 20) for the modification of the vehicle brake system pressure is shown here in a simplified presentation and connected to a wheel 22 of the vehicle. The brake modifier 20 receives signals over a line 24. Likewise, said brake control apparatus 16 is connected by a line 26 with a sensor 28 which, from a vehicle clutch 30, can pickup either an adjustment path or a transmitted moment and transmits this to the brake control 16. In the case of the vehicle transmission which, besides automatic shifting, is also provided with an automatic clutch, said sensor 28 can be in direct contact with the transmission control 10, which is indicated by a dotted line 32. In such a situation, the signals from the clutch 30 are then forwarded by the transmission control 10 to the brake control 16. As an additional and alternative apparatus for the recognition of a forward motion of the vehicle, a sensor 34 for speed of rotation is indicated, which captures the speed or rotation as well as the direction of rotation of the output drive shaft 6 and transmits these data to the brake control 16. A provided ABS-RPM sensor 36 on the vehicle wheel 22 can, likewise, transmit speed of rotation and direction of rotation of the wheel of the vehicle to the brake control 16. Obviously, it is not necessary that all the forward-direction detecting sensors be provided at the same time, but these can produce the necessary signals in an alternate installation.

[0013] When the vehicle is standing still and the backroll blockage for the vehicle is activated by the brake control 16 then, in addition, brake 8 is also activated and thereby the transmission 2 is blocked. Under these circumstances, that portion of the input drive string of the transmission 2 directed at the vehicle wheels 22 is now blocked from the transmission 2 to said wheels 22. Thereby is guaranteed an additional assurance for the vehicle against backrolling. Now if a startup is begun by the vehicle driver, then from the sensors 28, 34 or 36, any forward movement of the vehicle is detected. When the brake control 16 becomes aware of such an introduced forward movement then the brake modifier 20 is so commanded that the brake pressure is reduced. The brake 8 is released and the transmission 2 is no longer blocked so that the vehicle is allowed to proceed in its forward direction. A transmission oil pump 38 in the transmission 2 which, otherwise, serves for the lubrication of the transmission 2, is able to perform at a braking function, either at a standstill or in a nearly standstill condition of the vehicle. This is brought about by means of a blockage of the through-put of said oil pump 38.

Reference Numerals

[0014]2 shiftable transmission for a vehicle

[0015]4 transmission housing

[0016]6 output drive shaft

[0017]8 a brake (located within transmission housing)

[0018]10 transmission control

[0019]12 line

[0020]14 line

[0021]16 brake control for vehicle

[0022]18 vehicle braking system

[0023]20 brake Modifier (Apparatus for the modification of the vehicle braking pressure)

[0024]22 wheel of vehicle

[0025]24 connection line

[0026]26 line

[0027]28 sensor

[0028]30 vehicle clutch

[0029]32 line

[0030]34 sensor for the speed of rotation

[0031]36 sensor for the speed of rotation

[0032]38 oil pump 

Claimed is:
 1. An apparatus for the prevention of backroll of a vehicle, wherein said vehicle has a braking system (18) which encompasses a vehicle brake pressure modifying apparatus (20), device (28, 34, 36) which is enabled to recognize a forward movement of the vehicle, and a brake control apparatus (16), which is connected to the said vehicle brake pressure modifying apparatus (20) and the device (28, 34 36), therein characterized, in that a brake (8) and an oil pump (38) are provided, which brake (8) acts on the transmission (2) of the vehicle, which said brake is connected with the brake control (16), and which, during a stillstand or nearly a stillstand of the vehicle can be activated by said brake control (16) in addition to the brakes of the vehicle braking system (18).
 2. An apparatus for the prevention of backrolling of a vehicle in accord with claim 1, therein characterized, in that the vehicle brake pressure modifier apparatus (20) is a variable brake power restraining valve.
 3. An apparatus for the prevention of the backrolling of a vehicle, in accord with claim 1 or 2, therein characterized, in that the apparatus, which is adaptable to sensing forward motion of the vehicle is a clutch path sensor (28).
 4. An apparatus for the prevention of the backrolling of a vehicle, in accord with claim 1 or 2, therein characterized, in that the apparatus, which has the capability of recognizing a forward movement of the vehicle is a sensor (28), which captures the torque transmitted from the clutch (30).
 5. An apparatus for the prevention of the backrolling of a vehicle, in accord with claim 1 or 2, therein characterized, in that the apparatus, which is adaptable to recognize a forward movement of the vehicle, is a speed of rotation sensor (34, 36) with the capability of sensing direction of rotation.
 6. An apparatus for the prevention of the backrolling of a vehicle, in accord with claim 5, therein characterized, in that the speed of rotation sensor is a transmission output shaft speed of rotation sensor (34).
 7. An apparatus for the prevention of the backrolling of a vehicle, in accord with claim 5, therein characterized, in that the sensor for speed of rotation is an ABS-speed of rotation sensor (36) on the vehicle wheel (22).
 8. An apparatus for the prevention of the backrolling of a vehicle, in accord with one of the claims 1 to 7, therein characterized, in that the brake, which acts upon the transmission is a lamellar brake (8), which is placed on an auxiliary shaft of the shifting gear train (2) of the vehicle.
 9. An apparatus for the prevention of the backrolling of a vehicle, in accord with one of the claims 1 to 7, therein characterized, in that the brake (8,38), which acts upon the transmission is a lamellar brake, which is placed on an input drive shaft of the shifting gear train (2) of the vehicle.
 10. An apparatus for the prevention of the backrolling of a vehicle, in accord with one of the claims 1 to 7, therein characterized, in that the brake which acts upon the transmission (2) is a gear pump for oil (38).
 11. An apparatus for the prevention of the backrolling of a vehicle, in accord with one of the claims 1 to 7, therein characterized, in that the brake (8, 38) which acts on the transmission (2) can be activated by a stressing of the transmission (2) by means of the simultaneous engagement of two shift stages.
 12. A process for the prevention of the backrolling of a vehicle with a vehicle braking system (18), wherein said vehicle has a braking system (18) which encompasses a vehicle brake pressure modifying apparatus (20), device (28, 34, 36) which are enabled to recognize a forward movement of the vehicle, and a brake control apparatus (16), which is connected to the said vehicle brake pressure modifying apparatus (20) and the device (28, 34 36), therein characterized, in that, in the control apparatus (16), a signal is generated, which, upon a stillstand, or a near stillstand of the vehicle, activates a brake and sensor, respectively (8, 38) to act upon a transmission (2) of the vehicle, said brake and sensor, respectively (8, 28) being supplementary to the brakes of the of the vehicle braking system (18), and in that, upon the recognition of a forward movement of the vehicle, the control apparatus (16) reduces the braking pressure in the vehicle brake pressure modifying apparatus (20) and releases the brake and sensor, respectively (8, 28) which act upon the transmission (2). 